Sensors - General Videos

How Do Luminescence Sensors Work? Product Manager Jeff Allison describes the operating principles of luminescence sensors. Using the DK50-UV luminescence sensor as an example, he explains the technology, clarifies what luminophores are, covers the different types of light waves emitted (ultraviolet light and others), and discusses what you need to know to effectively use these types of sensors.

Researchers at ASU's Biodesign Institute have invented a sensor that detects harmful chemical vapors in the environment. The sensor is inside a pocket-sized box that can talk directly to a cell phone or laptop. This is a demo of the device by Dr. Erica Forzani, one of the co-inventors.

The Suzuki & Citterio Lab is working to create new sensing materials, such as dyes, and to develop chemical sensors. By combining organic molecules, electrochemistry, and molecular biology, the aim is to create chemical sensors that are smaller, simpler, and more sensitive. Such sensors will have a wide range of practical applications.

This video shows A325sc Infrared Camera from FLIR. These cameras are designed from the ground up to deliver the accurate thermographic imaging and repeatable temperature measurements needed in the research and science applications.

Chemical sensors printed directly on elastic underwear waistbands retained their sensing abilities even after engineers stretched, folded and pulled at the chemical-sensing printable electrodes -- sensors that could one day be incorporated into intelligent "hospital-on-a-chip" systems. This work, funded by the U.S. Office of Naval Research, is led by professor Joseph Wang, from the Department of NanoEngineering at the University of California, San Diego Jacobs School of Engineering.

Sensors are available at the water sensing facility to detect bacteria, spores, and protozoa. This device is unique in that it performs automated analysis of flowing drinking water for the presence of organisms rather than the more commonly evaluated chemical contaminants.

This video shows a large range of ABB’s power protection solutions, including power conditioning, power switching and UPS products, for providing high-quality power protection to data and plant processes.

At Celera Motion, we take our components and develop mechatronic assemblies - creating robot joints with extreme accuracy, low profiles, and high torque to deliver a unique solution for your requirements.

Cartesian or Gantry robots used in automated manufacturing, inspection, and medical imaging must consistently and repeatedly measure, position, or manipulate components - or scan across an area at a constant velocity to reliably complete the task at hand.

The collaborative effort by Washington State University researchers, US Geological Survey, and NASA's Jet Propulsion Lab might hold the key to predicting volcanic eruptions. Assistant Professor WenZhan Song, leading a team of graduate students at WSU Vancouver, has been designing a smart sensor network for the past 3 years.

This video illustrates the operation of ABB’s PCS100 RPC (reactive power conditioner) that provides regular reactive power correction to manage power quality problems such as voltage imbalance, inrush generated sags, power factor, and harmonics.

North Carolina State University senior Scott Ryan demonstrates a vest with built-in sensors that detects objects within a three-foot radius. The prototype was presented during an event in the College of Textiles highlighting innovations that have been designed by students to assist people with disabilities.

This video shows an FLIR MD series thermal imaging system. It is affordable and fixed-mount thermal night vision system, which can be used to steer around the obstacles and also for finding the people in the water at night.

This video shows the FLIR T620 & T640 thermal imaging systems. The FLIR T620 & T640 is the combination of the flexibility and ergonomics of the FLIR T-Series with extreme image quality of the P-Series cameras.

Support from the National Science Foundation (NSF) has helped Professor Perena Gouma engineer a Single Breath Disease Diagnostic Test breathalyser, which is currently being tested in clinical trials. By blowing into the breathalyser, your breath can be tested for the presence of disease-related biomarkers.

In this interview, Mel Gerst, Portfolio Manager from 3M Gas and Flame Detection, talks to AZoSensors about the portfolio of wireless solutions they offer that are suitable for a wide range of applications.

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